当前的量子硬件存在噪声,只能短暂存储信息,并且量子比特的数量有限,通常以平面连接性结构排列。然而,许多量子计算应用所需连接性要高于平面晶格,这是因为所需量子比特数超过了单个量子处理单元(QPU)所能提供的。科学界希望通过使用经典通信连接量子处理单元来 ...
IBM Quantum Heron can now leverage Qiskit to run certain classes of quantum circuits with up to 5,000 two-qubit gate ...
PsiQuantum has ambitious goals to build a useful quantum machine by late 2027 — and has raised more than US$1 billion to do ...
Quantum computing promises to revolutionize the way we process information by leveraging the principles of quantum mechanics. It will offer ...
A new quantum algorithm developed by University of Georgia statisticians addresses one of the most complex challenges in ...
IBM表示,Spyre Accelerator为复杂的AI模型和生成式AI用例带来了可扩展的功能。它有32个独立加速器核心和一个外围组件互连的Express ...
When it comes to the cutting edge, the computing world is oversaturated with AI advancements. Unless you’re talking about ...
This structure can handle more errors as the system grows by correcting them over broader, two-dimensional surfaces within ...
C114讯 北京时间11月18日消息(艾斯)在上周举办的IBM量子开发者大会上,该公司宣布了其最新量子处理器、量子代码助手和减少误差算法的到来。但随着这项新生技术的成熟,人们好奇的是:对于那些希望将这项技术应用于现实世界的人来说,这一切意味着什么? 首先需要了解的是,量子处理单元(QPU)的理念是对CPU和GPU传统计算的补充,而不是取代。IBM量子技术项目总监Jamie ...
IBM (NYSE: IBM) and Pasqal today announced an update to their intended collaboration to build new, integrated frameworks for ...
Quantum computing is revolutionising various industries by solving complex problems beyond classical computing capabilities.